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Antibiotic Effects on Microbial Communities Responsible for Denitrification and N2O Production in Grassland Soils
Semedo, M Song, BK Sparrer, T Phillips, RL
Semedo, M
Song, BK
Sparrer, T
Phillips, RL
Abstract
Antibiotics in soils may affect the structure and function of microbial communities. In this study, we investigated the acute effects of tetracycline on soil microbial community composition and production of nitrous oxide (N2O) and dinitrogen (N-2) as the end-products of denitrification. Grassland soils were pre-incubated with and without tetracycline for 1-week prior to measurements of N2O and N-2 production in soil slurries along with the analysis of prokaryotic and fungal communities by quantitative polymerase chain reaction (qPCR) and next-generation sequencing. Abundance and taxonomic composition of bacteria carrying two genotypes of N2O reductase genes (nosZ-I and nosZ-II) were evaluated through qPCR and metabolic inference. Soil samples treated with tetracycline generated 12 times more N2O, but N-2 production was reduced by 84% compared to the control. In parallel with greater N2O production, we observed an increase in the fungi: bacteria ratio and a significant decrease in the abundance of nosZ-II carrying bacteria; nosZ-I abundance was not affected. NosZ-II-carrying Bacillus spp. (Firmicutes) and Anaeromyxobacter spp. (Deltaproteobacteria) were particularly susceptible to tetracycline and may serve as a crucial N2O sink in grassland soils. Our study indicates that the introduction of antibiotics to agroecosystems may promote higher N2O production due to the inhibitory effects on nosZ-II-carrying communities.
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2018-01-01
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Biological Sciences Peer-Reviewed Articles, Nitrous-Oxide Reductase; 16S Ribosomal-Rna; Fungal Denitrification; Pig-Manure; Tetracycline Antibiotics; Bacterial Communities; Agricultural Soils; Resistance Genes; Diversity; Emissions
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Virginia Institute of Marine Science
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https://doi.org/10.3389/fmicb.2018.02121